Mathematical Models and In-Process Monitoring Techniques for Cutting Tools
Mathematical Modeling Experimental Approach of the Friction on the Tool-Chip Interface of Multicoated Carbide Turning Inserts
Determination of the Real Cutting Edge Wear Contact Area on the Tool-Workpiece Interface in the Light of Cutting Forces Variations
Surface topography assessment techniques based on an in-process monitoring approach of tool wear and cutting force signature
Influence of regular and random cutting tool deformation on the cutting force of three-dimensional turning operation
Tool life determination based on the measurement of wear and tool force ratio variation
On the effect of heat treatment on the forming properties of pre-deformed low carbon steel.
Prior Surface Integrity Assessment of Coated and Uncoated Carbide Inserts Using Atomic Force Microscopy
Tool Wear Prediction Approach for Turning Operations Based on General Regression Neural Network (GRNN) Technique
A diagnostic approach for turning tool based on the dynamic force signals
Statistical and Graphical Assessment of Circumferential and Radial Hardness Variation of AISI 4140, AISI 1020 and AA 6082 Aluminum Alloy
High-capacity compact three-component cutting force dynamometer
On the variability of tool wear and life at disparate operating parameters
Neural Network Models on the Prediction of Tool Wear in Turning Processes: A Comparison Study
SEM and AFM Investigations of Surface Defects and Tool Wear of Multilayers Coated Carbide Inserts
Development of models for tool wear force relationships in metal cutting